A 77 GHz CMOS low noise amplifier for automotive radar receiver

Le, Hoang Viet; Duong, Hoa Thai; Ta, C.M.; Huynh, Anh Trong; Evans, R.J.; Skafidas, Efstratios

doi:10.1109/rfit.2012.6401651

Cited by 22 publications

(8 citation statements)

References 9 publications

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“…This FOM includes the most relevant parameters for evaluating LNAs for low‐power, high‐gain, low‐noise, and wideband applications. Table is a summary of the implemented 57–81 GHz CMOS LNA, and recently reported state‐of‐the‐art CMOS and SiGe BiCMOS LNAs with operation frequency around 77 GHz in . It is noteworthy that our LNA exhibits both low P DC and one of the lowest NFs and highest FOMs.…”

Section: Measurement Results and Discussionmentioning

confidence: 98%

“…Lately, although several studies have reported excellent 77 GHz (or switchable 60/77‐GHz dual‐band) CMOS and SiGe BiCMOS LNAs , as a whole, the performances of these LNAs are not adequate. For instance, in , a single cascode stage 77–81 GHz LNA in 0.13 µm SiGe BiCMOS process with current‐gain cutoff frequency/maximum oscillation frequency ( f T / f max ) of 230/280 GHz was demonstrated.…”

Section: Introductionmentioning

confidence: 99%

“…Though high and flat S 21 of 13.8 ± 0.7 dB and low NF of 6.9 dB were achieved, its P DC of 37 mW was not satisfactory. In , a five CS stages 76–77 GHz LNA in 90 nm CMOS process was demonstrated. Though high S 21 of 11 ± 0.5 dB was achieved, its NF of 7.8 dB and P DC of 25.8 mW were not good enough.…”

Section: Introductionmentioning

confidence: 99%

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9.99 mW 4.8 dB NF 57-81 GHz CMOS low-noise amplifier for 60 GHz WPAN system and 77 GHz automobile radar system

Lin

Lee

2015

Microw. Opt. Technol. Lett.

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A low‐power and wideband two‐stage millimeter‐wave low‐noise amplifier (LNA) for 60 GHz wireless personal area network system and 77 GHz automotive radar system using standard 90 nm CMOS technology is reported. T‐match technique is used to achieve simultaneously wideband input and output impedance matching, wideband power gain (S21), and wideband noise figure (NF). The LNA consumes 9.99 mW, achieving S11 better than −−10 dB for frequencies of 57.6–81.8 GHz, and S12 better than −−29.1 dB for frequencies of 10–110 GHz. Additionally, high and flat S21 of 11.2 ± 1.5 dB is achieved for frequencies of 57.9–80.4 GHz, which means the corresponding 3‐dB bandwidth is 22.5 GHz. Furthermore, the LNA achieves minimum NF of 4.8 dB at 76 GHz and NF of 6.2 ± 1.4 dB for frequencies of 76–84 GHz, one of the best NF results ever reported for a CMOS or SiGe BiCMOS LNA with operation frequency around 77 GHz. © 2015 Wiley Periodicals, Inc. Microwave Opt Technol Lett 57:594–600, 2015

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Section: Measurement Results and Discussionmentioning

confidence: 98%

Section: Introductionmentioning

confidence: 99%

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9.99 mW 4.8 dB NF 57-81 GHz CMOS low-noise amplifier for 60 GHz WPAN system and 77 GHz automobile radar system

Lin

Lee

2015

Microw. Opt. Technol. Lett.

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“…In practice, the number of stages can exceed three [2]- [5]. Therefore, the situation of cascading stages needs to be considered for LNA design at mm-wave frequencies.…”

Section: Introductionmentioning

confidence: 99%

A 8-mW 77-GHz band CMOS LNA by using reduced simultaneous noise and impedance matching technique

Kuo

et al. 2015

2015 IEEE International Symposium on Circuits and Systems (ISCAS)

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This paper presents analysis and design of source inductance for multistage LNA at 77-GHz band in 90 nm CMOS technology. Instead of simultaneous noise and impedance matching, the analysis shows the optimum degeneration of the single stage design for millimeter-wave frequencies. A low-power 77-GHz band LNA has been demonstrated to verify the optimization result. By using the proposed method, the LNA exhibited a low noise figure of 5.1 dB and a gain of 18.1 dB at 78.5 GHz with only 8 mW from a 1-V power supply. Keywords-LNA; source degeneration; millimeter-wave; simultaneous noise and impedance matching I.978-1-4799-8391-9/15/$31.00 ©2015 IEEE

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“…The basic requirements of a LNA include good input and output impedance matching (S 11 and S 22 ), high reverse isolation (S 12 ), high forward gain (S 21 ), a low noise figure (NF) and high power linearity (or phase linearity) and low power consumption (P DC ). Recently, several excellent 77-81 GHz (or 76-77 GHz) CMOS/BiCMOS LNAs have been reported [1][2][3]. However, the overall performances of these LNAs are not satisfactory.…”

mentioning

confidence: 99%

Low‐power 77–81 GHz CMOS LNA with excellent matching for automotive radars

Lin¹,

Lee²,

Wang³

2014

Electron. lett.

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A low-power and wideband three-stage 77-81 GHz low-noise amplifier (LNA) using standard 90 nm CMOS technology is reported. The T-match technique is utilised to achieve simultaneously wideband input and output impedance matching, wideband power gain (S 21) and a wideband noise figure (NF). The LNA consumes 21.1 mW, achieving S 11 better than −10 dB for the frequencies 62.3-82.4 GHz, S 22 better than −10 dB for the frequencies 62.8-84.6 GHz, S 12 better than −29 dB for the frequencies 72-84 GHz and a group delay variation smaller than ±4 ps for the frequencies 77-81 GHz. In addition, high and flat S 21 of 13.1 ± 1.5 dB is achieved for the frequencies 72-84 GHz, which means the corresponding 3 dB bandwidth is 12 GHz. Furthermore, the LNA achieves a minimum NF of 6.2 dB at 78 GHz and a NF of 6.8 ± 0.6 dB for the frequencies 75-82 GHz, one of the best NF results ever reported for a CMOS LNA for 77-81 GHz automotive radar applications.

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A 77 GHz CMOS low noise amplifier for automotive radar receiver

Cited by 22 publications

References 9 publications

9.99 mW 4.8 dB NF 57-81 GHz CMOS low-noise amplifier for 60 GHz WPAN system and 77 GHz automobile radar system

9.99 mW 4.8 dB NF 57-81 GHz CMOS low-noise amplifier for 60 GHz WPAN system and 77 GHz automobile radar system

A 8-mW 77-GHz band CMOS LNA by using reduced simultaneous noise and impedance matching technique

Low‐power 77–81 GHz CMOS LNA with excellent matching for automotive radars

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